SU1657781A1 - Nozzle of fluidic amplifier - Google Patents

Abstract

The invention relates to an inkjet technique. The nozzle contains a nozzle guide with a diffuser channel 3. The nozzles are assembled. Some of the parts of the nozzle, for example the insert 6, are made movable, which allows changing the shape and dimensions of the nozzle bore. As a result, its functionality is expanded. 9 il.

Description

FIG. 6

The invention relates to automatic control and can be applied in hydraulic automatic systems, in particular in devices of jet technology.

The aim of the invention is to extend the functionality of the receiving nozzle of the jet amplifier.

FIG. 1 shows the receiving nozzle, axial section; figure 2 - section aa in figure 1; on fig.Z - view B in figure 1; Fig. 4 shows a receiving nozzle with two inlets; in fig. 5 - inlet with 18 movable inserts; in Fig. 6, the receiving nozzle, the nozzle of which consists of six identical parts, which are all movable, has an axial section; figure 7 is a view In figure 6; on Fig - receiving nozzle, the nozzle of which consists of four moving parts, the cross section; figure 9 - the same, in two parts.

The receiving nozzle includes a housing 1 with an outlet 2. At the end of the housing 1, a nozzle guide with a diffuser channel 3 is fitted, which, by a large size, mates with the outlet. The nozzles are assembled and consist of a base 4, side 5 and a liner 6. The base 4 and side 5 are rigidly connected to each other and to the housing 1, and the liner 6 is movable relative to the housing 1 and the base 4. The movement of the liner 6 is performed by a drive having a screw 7 with a shank 8 which fits into the slot of the insert 8.

Pockets 9 are made on the surface of the base 4 and sidewall 5, which are connected through a choke 10 to a pressure source 11. Arrow 12 shows the direction of movement of the liner b, curve 13 indicates the contour of the jet flowing onto the receiving nozzle.

The receiving nozzle of the jet amplifier works as follows.

When a jet 13 flows into the opening of the receiving nozzle in the diffuser channel 3, the kinetic energy of the jet is converted into the potential energy of the liquid. In this case, the average flow rate along the length of the channel 3 decreases, and the pressure increases. The pressurized fluid is discharged through the outlet 2.

A part of the liquid leaks between the mating surfaces into the pockets 9, and then is released through the choke 10. Depending on the pressure in the source 11 and the resistance of the throttles 10, it is possible to suck or blow the liquid along the length of the diffuser channel 3. Suction of the liquid reduces the intensity of the tear-off effects in the diffuser channel

the injection of fluid reduces the leakage from the channel and reduces the frictional force when the liner is moved. The shape of the pocket 9 and its location relative to the channel 3 are chosen in such a way as to ensure

optimal suction or fluid injection conditions.

The receiving nozzle allows various constructive implementation. Figure 4 shows a receiving nozzle with two moving

inserts, as a result of which two receiving windows are formed; in FIG. 5, a receiving nozzle with a large number of movable inserts. Move the insert 6 in direction 12 and expose them in a certain way, you can get the desired contour of the receiving window. FIG. 6-7 show the receiving nozzle, the nozzle of which consists of six identical inserts 6, which are prisms, the bases of which

there is a prism with an angle of 60 °, in which the liners match each other. The dimensions of the flow area of the channel 3 are adjusted by moving the inserts 6 with screws 7. of the reflecting shank 8 to the bracket 14. which is fastened with the screw 15 to the housing 1.

On the mating surfaces of the liners 6, pockets 9 are made, which through chokes 10 are connected to a source

11 pressure. The inserts can be mounted on the housing the required number. For example, in FIGS. 8 and 9, four and two inserts are shown, respectively.

Claims (1)

Claims of Invention The receiving nozzle of the jet amplifier, comprising a housing with an outlet in the flat end, assembled from mated between the parts of the nozzles, the diffuser channel formed by the surfaces of the parts of the nozzle, facing the axis of the outlet of the housing, and the pockets made on the flat surfaces of the interface of the parts of the nozzle and connected each through its choke with a source of pressure In order to extend the functionality, at least one part of the nozzle is made movable with the possibility of movement relative to other parts and the housing. Aa FIG. four FIG. five in 7 14 15 FIG. 7 MB 12